Project description:Quantitative monitoring of eDNA around artificial reefs using high-throughput sequencing

Project description:eDNA metabarcoding from six stations around Boso Peninsula

Project description:Quantitative monitoring of eDNAs at upstream and downstream sides of artificial reefs using high-throughput sequencing

Project description:eDNA exploration of Hawaiian mesophotic reefs

Project description:eDNA samples from Danish boulder reefs

Project description:Coral eDNA project

Project description:MiFish eDNA metabarcoding

Project description:False Creek eDNA survey, 2022

Project description:Macrophage distribution density is tightly regulated within the body, yet the importance of macrophage crowding during in vitro culture is largely unstudied. Using a human induced pluripotent stem cell (iPSC)-derived macrophage model of tissue resident macrophages, we demonstrate how increasing macrophage culture density changes their morphology and phenotype before and after inflammatory stimulation. In particular, density drives changes in macrophage inflammatory cytokine and chemokine secretion in both resting and activated states. This density regulated inflammatory state is also evident in blood monocyte derived-macrophages, the human monocytic THP-1 immortalized cell line, and iPSC-derived microglia. A potential cause we identify are anti-inflammatory products in the culture supernatant accumulating as density increases. However, the precise mechanism remains unknown. Our findings highlight cell plating density as an important but frequently overlooked consideration of in vitro macrophage research relevant to a variety of fields ranging from basic macrophage cell biology to disease studies.

Project description:eDNA Metabarcoding Koh Pha-ngan, Thailand